# Copyright (C) 2014, 2015, 2016 Free Software Foundation, Inc.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3, or (at your option)
# any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program.  If not, see <http://www.gnu.org/licenses/>.

# Initialize test of interactive operation
# This file is to be sourced, not run directly

# Skip test if pseudotty wasn't built
test -x pseudotty || exit 77

#  we may look up whether a couple of utilities exist.

path_sep=":"

# findprog PROG - Return true if PROG is somewhere in PATH, else false.
findprog ()
{
  saveIFS=$IFS
  IFS=$path_sep  # break path components at the path separator
  for dir in $PATH; do
    IFS=$saveIFS
    # The basic test for an executable is `test -f $f && test -x $f'.
    # (`test -x' is not enough, because it can also be true for directories.)
    # We have to try this both for $1 and $1.exe.
    #
    # Note: On Cygwin and DJGPP, `test -x' also looks for .exe.  On Cygwin,
    # also `test -f' has this enhancement, but not on DJGPP.  (Both are
    # design decisions, so there is little chance to make them consistent.)
    # Thusly, it seems to be difficult to make use of these enhancements.
    #
    if   { test -f "$dir/$1"     && test -x "$dir/$1"; } \
      || { test -f "$dir/$1.exe" && test -x "$dir/$1.exe"; }; then
      return 0
    fi
  done
  return 1
}

# 
# Avoid ginfo complaining that terminal is too dumb
TERM=vt100; export TERM

FINISHEDFIFO=t/`basename $0.finished`

# See cleanup in Init-test.inc.
findprog stty && { STTY=stty ; reset_required=yes ; }
test $reset_required=yes && { $STTY | grep [-]echo ; } && reset_required=no

# Create named pipes to communicate with pseudotty program, or quit.
rm -f $PIPEIN $PTY_TYPE # must already be defined
if findprog mkfifo; then
  mkfifo $PIPEIN
  mkfifo $PTY_TYPE
  #
  if test ! -r $PIPEIN || test ! -r $PTY_TYPE; then
    echo "$0: could not mkfifo pipes" >&2
    exit 77
  fi
  # ok, we'll proceed with the test.
else
  echo "$0: mkfifo program not found - cannot make named pipes" >&2
  exit 77
fi

# We can feed input bytes into $PTY_TYPE to be passed onto ginfo, as
# if they were typed by a user in an interactive session.
# We redirect to the FIFO within a subshell, because under NetBSD 6.1.4
# it hangs otherwise.
(exec ./pseudotty "$PTY_TYPE" >$PIPEIN) &
PTY_PID=$!
# Get name of pseudo-terminal slave device
read PTS_DEVICE <$PIPEIN

# Keeping the FIFO open for writing prevents the select call in
# pseudotty returning EOF after a single "printf something >$PTY_TYPE".
exec 7>$PTY_TYPE

# glibc can kill a running process if it detects a condition like a
# double free.  This specifies that the message it prints when it does
# this should be sent to stderr so it can be recorded in the test *.log
# files.
LIBC_FATAL_STDERR_=1; export LIBC_FATAL_STDERR

run_ginfo ()
{
  rm -f $FINISHEDFIFO
  mkfifo $FINISHEDFIFO
  { # Close fd opened to control FIFO in subshell so pseudotty can exit 
    # for an EOF.  This prevents lingering processes if a test is 
    # interrupted.
    exec 7>&- ;
    exec 8>$FINISHEDFIFO ;
    $GINFO $GINFO_OPTIONS "$@" ;
    test $? -eq 0 || echo failure >$FINISHEDFIFO ;
    echo finished >$FINISHEDFIFO ; } 0<>$PTS_DEVICE 1<&0 &
  SUBSHELL=$!
  exec 8<$FINISHEDFIFO

  # Although we don't write to the FIFO in this process, we still need
  # to open it for writing, because if the above subshell exits before
  # we read from it, we won't be able to open it - even though 
  # "finished" is buffered.
  exec 9>$FINISHEDFIFO

  # Check for pgrep
  if findprog pgrep; then
    # Get the PID of the running ginfo process.  Look for a process called
    # "ginfo" whose parent process is the subshell executed by the previous
    # command.
    echo 'Fetching PID of ginfo process under test...' >&2
    GINFO_PID=

    # Try 3 times and then give up.  The process may never have started, 
    # have started under a different name, or have already exited.
    for i in 1 2 3; do
      GINFO_PID=`pgrep -P $SUBSHELL $GINFO_NAME ; \
	test $? -eq 0 || test $? -eq 1 || exit 99`

      # This use of pgrep is likely not portable (works on procps).
      # Check if it is likely to have worked.

      # Exit status was anything other than 0 or 1
      test $? -eq 99 && { GINFO_PID=unknown; break; }

      # More than one line in output
      echo $GINFO_PID | wc -l | grep '^0$\|^1$' >/dev/null \
	|| { GINFO_PID=unknown; break; }

      # Non-numeral characters present
      echo $GINFO_PID | grep -v '^[0-9]*$' >/dev/null
      test $? -eq 0 && { GINFO_PID=unknown; break; }

      GINFO_PID=`echo $GINFO_PID | tr -d '\n'`

      test "$GINFO_PID" = "" || break
      sleep 1 # Give subshell time to spawn ginfo process
    done
    test "$GINFO_PID" = "" && GINFO_PID=unknown
    echo ...$GINFO_PID >&2
  else
    echo 'pgrep program not found - cannot get PID of ginfo process' >&2
    GINFO_PID=unknown
  fi
}
